S1 Nuclease Analysis Research Articles

Interaction of linear homologous DNA duplexes via Holliday junction formation.

Interaction of linear homologous DNA duplexes by formation of Holliday junctions was revealed by electrophoresis and confirmed by electron microscopy. The phenomenon was demonstrated using a model of five purified PCR products of different size and sequence. The double-stranded structure of interacting DNA fragments was confirmed using several consecutive purifications, S1-nuclease analysis, and electron microscopy. Formation of Holliday junctions depends on DNA concentration. A thermodynamic equilibrium between duplexes and Holliday junctions was shown. We propose that homologous duplex interaction is initiated by nucleation of several dissociated terminal base pairs of two fragments. This process is followed by branch migration creating a population of Holliday junctions with the branch point at different sites. Finally, Holliday junctions are resolved via branch migration to new or previously existing duplexes. The phenomenon is a new property of DNA. This type of DNA-DNA interaction may contribute to the process of Holliday junction formation in vivo controlled by DNA conformation and DNA-protein interactions. It is of practical significance for optimization of different PCR-based methods of gene analysis, especially those involving heteroduplex formation.

Hormone activation induces nucleosome positioning in vivo.

The mouse mammary tumor virus (MMTV) promoter is induced by glucocorticoid hormone. A robust hormone- and receptor-dependent activation could be reproduced in Xenopus laevis oocytes. The homogeneous response in this system allowed a detailed analysis of the transition in chromatin structure following hormone activation. This revealed two novel findings: hormone activation led to the establishment of specific translational positioning of nucleosomes despite the lack of significant positioning in the inactive state; and, in the active promoter, a subnucleosomal particle encompassing the glucocorticoid receptor (GR)-binding region was detected. The presence of only a single GR-binding site was sufficient for the structural transition to occur. Both basal promoter elements and ongoing transcription were dispensable. These data reveal a stepwise process in the transcriptional activation by glucocorticoid hormone.

Molecular characterization of the PhoP-PhoQ two-component system in Escherichia coli K-12: identification of extracellular Mg2+-responsive promoters.

We identified Mg2+-responsive promoters of the phoPQ, mgtA, and mgrB genes of Escherichia coli K-12 by S1 nuclease analysis. Expression of these genes was induced by magnesium limitation and depended on PhoP and PhoQ. The transcription start sites were also determined, which allowed us to find a (T/G)GTTTA direct repeat in their corresponding promoter regions.

Characterization of a Mycobacterium tuberculosis homologue of the Streptomyces coelicolor whiB gene

Setting: Molecular Research Laboratory, Department of Medical Microbiology, University of Cape Town and Groote Schuur Hospital.Objective: Characterize Mycobacterium tuberculosis homologue of theStreptomyces coelicolor , sporulation specific, whiB regulatory gene.Design: The M. tuberculosis whiB3 gene was isolated by enriched cloning of a 2.8kb Bam HI fragment to which the S. coelicolor whiB gene hybridized. Expression of the gene was analysed by S1 nuclease analysis and promoter studies.Results: An open reading frame within the 2.8kb Bam HI fragment was identified as the M. tuberculosis whiB3 gene, one of four whiB homologues in the M. tuberculosis genome. The deduced amino acid sequence has a 92% identity with a M. leprae protein, and 32% identity with the S. coelicolor WhiB protein. S1 nuclease analysis showed that the M. tuberculosis whiB3 gene is constitutively expressed by the cells in liquid culture. Primer extension analysis revealed three transcriptional start sites. Expression from the three potential promoters is growth phase-dependent.Conclusion: The M. tuberculosis whiB3 gene is expressed throughout growth, but expression from the individual promoters is growth phase dependent.

Characterization and chromosomal localization of the human insulin-like growth factor-binding protein 6 gene.

Insulin-like growth factor-binding protein 6 (IGFBP6), an extracellular protein with preferential affinity for insulin-like growth factor (IGF) II, belongs to a family of binding proteins with at least six members. We have characterized the genomic structure and the chromosomal location of the human IGFBP6, which is present in the human genome as a single-copy gene spanning 4.7 kb. It consists of four exons, encoding the translated regions, with sizes of 334, 146, 120, and 123 bp, while the intervening introns are 2661, 182, and 844 bp. Three mRNA cap sites were localized 101, 100, and 96 bp upstream of the ATG translation start codon as determined by S1 nuclease analysis. The proximal 5'-flanking region does not have any TATA or CAAT consensus sequences. The IGFBP6 was localized to Chr 12 by analysis of somatic cell hybrids and regionalized to 12q13 by fluorescence DNA in situ hybridization.

Reverse Transcription-Polymerase Chain Reaction Products of Alternatively Spliced mRNAs Form DNA Heteroduplexes and Heteroduplex Complexes

Reverse transcription-polymerase chain reaction (RT-PCR) is frequently used to simultaneously detect mRNA isoforms, which are generated by alternative splicing. Here we characterize two previously unrecognized RT-PCR products of vascular endothelial growth factor (VEGF) RNA. DNA products with apparent sizes of 600 and 1200 base pairs (bp) were detected at high cycle numbers. Heat denaturation of the smaller product and subsequent reannealing revealed that it was a heteroduplex consisting of two different DNA strands. These were identified by DNA sequencing as the amplification products of two VEGF transcripts, i.e. VEGF121 and VEGF165, which differ by the presence of one exon. S1 nuclease analysis showed that this exon is bulged out as a single-stranded loop. Purified heteroduplexes in solution were found to form a 1200-bp DNA product which could be reconverted into 600-bp DNA heteroduplexes by mild denaturation at 70 degreesC. These findings suggest that this product is formed by base pairing of complementary heteroduplex loops and represents a novel four-stranded DNA structure.

Alternative transcription initiation sites generate two LCA1 Ca2+-ATPase mRNA transcripts in tomato roots.

The tomato LCA1 gene encodes a Ca2+-ATPase and gives rise to two major mRNA transcripts and two distinct protein products of different size in tomato roots. The basis of the transcript size difference was investigated to assess whether the mRNA transcripts encoded distinct protein products. Primer extension and S1 nuclease analysis identified two transcription initiation sites at -72 and -1392 from the start of translation. RNA gel blot analysis of poly(A)+ RNA isolated from phosphate-starved tomato roots using probes designed to domains of the 5'-untranslated region (UTR) or the full-length LCA1 cDNA identified mRNAs of 4.7 and 3.6 kb, corresponding to mRNA originating from transcription initiation sites -1392 and -72, respectively. Screening of a cDNA library derived from phosphate-starved tomato roots yielded three cDNA clones, LCA1A, LCA1B and LCA1C (3.6, 4.5 and 5.1 kb respectively). These cDNAs contain full-length LCA1 mRNA sequence derived from each transcription initiation site, with LCA1C additionally containing an intron of 0.6 kb. Sequence analysis indicated 100% identity between the three size classes of cDNA clones except for the differential 5'-UTR and the unspliced intron. Overall, the results indicate that the two major LCA1 mRNA transcripts are derived by differential transcription initiation and that two of the mRNAs may encode identical protein products, while a third mRNA may correspond to a non-functional truncated protein.

Characterization of a bovine herpesvirus 4(BHV-4) 1.1-kb RNA and its transactivation by BHV-4 immediate-early 2 gene product

We determined the structure of a 1.1-kb cytoplasmic polyadenylated RNA transcribed from a region of the bovine herpesvirus 4 (BHV-4) genome not conserved among gammaherpesviruses by sequencing its cDNA, by S1 nuclease analysis, and by primer extension analysis. We found that the RNA consists of a short, approximately 193-nucleotide (nt), 5' exon spliced to a 799-nt 3' exon and contains two short (53 and 57 codons) overlapping open reading frames (ORFs). The 53-codon ORF was previously designated BORFE1. Neither ORF exhibits detectable amino acid sequence homology with ORFs of other gammaherpesviruses. The 1.1-kb RNA promoter-regulatory region was specifically transactivated by the BHV-4 IE2 gene product, a homolog of the Epstein-Barr virus R transactivator, in cotransfection assays. In gel retardation experiments, IE2 protein formed a complex with DNA in a 129-bp fragment between -23 and -151 relative to the transcription start site of the 1.1-kb RNA, and less efficiently with a 57-bp subfragment between -78 and -22. A sequence similar to sequences of IE2-binding fragments of other BHV-4 IE2 responsive promoters was found partly in the 57-bp subfragment, extending into the portion of the 129-bp fragment not found in the 57-bp fragment. The 129-bp fragment, but not the 57-bp fragment, was sufficient for transactivation of a promoterless chloramphenicol acetyl transferase (CAT) reporter gene by IE2. However, the 129-bp fragment did not function efficiently as an IE2-responsive enhancer when inserted approximately 140 base pairs (bp) 5' to the transcription start site of a CAT reporter gene driven by an enhancerless simian virus 40 early promoter. Based on this and other observations, we propose that IE2 functions as a promoter factor rather than an enhancer factor.

Isolation and Characterization of a Type I Gene Encoding a Light-harvesting Chlorophyll a/b-binding Protein of Photosystem II in Peach

A nuclear gene, Lhcb1*Pp1, encoding a light-harvesting chlorophyll a/b-binding protein of photosystem II has been isolated from peach [Prunus persica (L.) Batsch. `Stark Earliglo'] leaf genomic DNA, cloned, and sequenced. This gene encodes a precursor polypeptide of 267 amino acids with a transit peptide of 34 and a type I mature protein of 233 amino acids. The amino acid sequence of the mature polypeptide is 89% to 94% and 80% to 94% similar to those encoded by type I Lhcb genes of annual and other woody plants, respectively. In contrast, the amino acid sequence of the peach transit peptide is less conserved being 47% to 69% similar to those of annual plants and only 17% to 22% similar to those of other woody plants. The peach gene was used as a probe for Lhcb gene expression. Lhcb mRNA is detected in leaves of field-grown trees during June to October. Lhcb mRNA is detected at a high level in leaves of peach shoots grown in tissue culture in the light, but only at a trace level in leaves grown in the dark. Some Lhcb genes appear to be light-modulated in stems. Lhcb1*Ppl contains four potential polyadenylation sites. S1 nuclease analysis detected transcripts of the sizes expected from each of the four polyadenylation sites. All four are found in leaves of light-grown shoots and of field-grown trees throughout the growing season. In contrast, only three are detected in stems of light-grown shoots.

Characterization of the cvaA and cvi promoters of the colicin V export system: iron-dependent transcription of cvaA is modulated by downstream sequences.

Secretion of the Escherichia coli toxin colicin V was previously determined to be iron regulated via the Fur (ferric uptake regulator) protein, based on studies in fur mutants. The iron dependence of transcription and expression of cvaA, which encodes a transporter accessory protein, and cvi, encoding the colicin V immunity protein, was assessed under conditions of iron excess or depletion. Immunoblots showed that production of both Cvi and CvaA is iron dependent. The iron-dependent transcriptional start for cvaA identified by primer extension and S1 nuclease analysis, P1, lies 320 bp upstream of the translational start and is associated with a newly identified Fur binding site. Beta-galactosidase activity in transcriptional lacZ fusions with the P1 promoter alone is higher than with downstream sequences present and is induced 10-fold by iron depletion. Including immediate downstream regions with P1 enhances activity from P1 even more but reduces the induction by iron depletion fivefold. Including subsequent downstream sequences, however, down-modulates overall transcription from P1 almost fourfold. Deletion of a long stem-loop structure in this region alleviates the down-modulation by increasing transcription, indicating that the sequences or structure of this element may contribute to this down-regulation. Characterization of the cvi promoter by primer extension showed that it resides where predicted, about 50 bp upstream of cvi associated with a previously identified Fur binding site. The cvi promoter is also inducible by iron depletion. The modulating sequences from cvaA were placed downstream of the cvi promoter to test their effects in transcriptional fusions of the cvi promoter to lacZ. The fusion results showed that these sequences also modulate transcription of the cvi promoter in a manner similar to that of the cvaA promoter. The potential for up- and down-regulation within the long untranslated region downstream of the cvaA promoter suggests a novel mechanism that fine-tunes expression of the colicin V secretion genes.

A pathway-specific transcriptional activator regulates late steps of clavulanic acid biosynthesis in Streptomyces clavuligerus.

A Streptomyces clavuligerus gene (designated claR) located downstream from the gene encoding clavaminate synthase in the clavulanic acid biosynthetic gene cluster is involved in regulation of the late steps in clavulanic acid biosynthesis. Nucleotide sequence analysis and database searching of ClaR identified a significant similarity to the helix-turn-helix motif (HTH) region of LysR transcriptional regulators. A gene replacement mutant disrupted in claR was unable to produce clavulanic acid, suggesting that claR is essential for clavulanic acid biosynthesis. Furthermore, the accumulation of clavaminic acid in the claR mutant suggested that ClaR regulates the late steps in the clavulanic acid pathway, i.e. those involved in the conversion of clavaminic acid to clavulanic acid. Transcriptional analysis using RNA isolated from the wild type and the claR mutant showed that the expression of the putative late genes, but not the early genes, was regulated by ClaR. High-resolution S1 nuclease analysis of claR suggested that it is expressed as a monocistronic transcript and also as a bicistronic transcript along with the late gene orf-9. The transcription start site of the monocistronic claR transcript was identified as a C residue 155 nucleotides upstream from the claR start codon.

Regulation of expression of the pilA gene in Myxococcus xanthus

Type IV pili are required for social gliding motility in Myxococcus xanthus. In this work, the expression of pilin (the pilA gene product) during vegetative growth and fruiting-body development was examined. A polyclonal antibody against the pilA gene product (prepilin) was prepared, along with a pilA-lacZ fusion, and was used to assay expression of pilA in M. xanthus in different mutant backgrounds. pilA expression required the response regulator pilR but was negatively regulated by the putative sensor kinase pilS. pilA expression did not require pilB, pilC, or pilT. pilA was also autoregulated; a mutation which altered an invariant glutamate five residues from the presumed prepilin processing site eliminated this autoregulation, as did a deletion of the pilA gene. Primer extension and S1 nuclease analysis identified a sigma54 promoter upstream of pilA, consistent with the homology of pilR to the NtrC family of response regulators. Expression of pilA was found to be developmentally regulated; however, the timing of this expression pattern was not entirely dependent on pilS or pilR. Finally, pilA expression was induced by high nutrient concentrations, an effect that was also not dependent on pilS or pilR.

Identification of the transcription termination site of the mouse nkx-1.2 gene: involvement of sequence-specific factors

We have identified a transcription termination site in the 3′ flanking region of the mouse nkx-1.2 gene. A downstream transcription regulatory element in the mouse nkx-1.2 gene was characterized by transferring its 3′-fragment into a chloramphenicol acetyl transferase (CAT) expression vector. Analysis of recombinant plasmids transfected into mouse NIH3T3 cells by CAT assay showed the possible region of regulation. There were two direct repeat structures containing poly(dG–dT)⋅poly(dC–dA) sequences (GT repeats) in this region. The precise location of transcription termination was mapped by nuclease S1 analysis of the transcripts from recombinant plasmids transfected into COSM6 cells. It was approximately 20 nucleotides upstream of the first GT repeat within the 5′ sequences of the first element of the two direct repeats. Gel mobility shift assay and footprinting analysis demonstrated that nuclear DNA binding proteins bound specifically to the sequences where the termination occurred as well as the other sequences in the second element of the direct repeats. Southwestern analysis showed that 90-, 54-, 36- and 15-kDa nuclear proteins bound to the region of the termination. It is possible that one or more of those proteins are involved in blocking the elongation of the mouse nkx-1.2 gene transcript and then result in termination.

Expression and Efficient Export of Enzymatically ActiveMycobacterium tuberculosis Glutamine Synthetase in Mycobacterium smegmatis and Evidence That the Information for Export is Contained within the Protein

We have investigated the expression and extracellular release of active, recombinant Mycobacterium tuberculosis glutamine synthetase (EC 6.3.1.2), an enzyme that is a potentially important determinant of M. tuberculosis infection and whose extracellular release is correlated with pathogenicity. The M. tuberculosis glutamine synthetase gene encodes a polypeptide of 478 amino acids; 12 such subunits comprise the active enzyme. Northern blot, nuclease S1, and primer extension analyses revealed glutamine synthetase specific transcripts of approximately 1,550 and 1,650 nucleotides produced under low and high nitrogen conditions, respectively. Expression of recombinant M. tuberculosis glutamine synthetase in Escherichia coli YMC21E, a glutamine synthetase deletion mutant, led to transcomplementation of the mutant but not to release of active enzyme. Expression in Mycobacterium smegmatis 1-2c, from the gene's own promoter, resulted in the release of >95% of all recombinant enzyme. No hybrid molecules containing M. tuberculosis and M. smegmatis glutamine synthetase subunits were detected. Native and recombinant exported and intracellular glutamine synthetase molecules were indistinguishable from one another by mass, N-terminal amino acid sequence, antibody reactivity, and enzymatic activity. Since M. tuberculosis glutamine synthetase is similar to other, strictly intracellular, bacterial glutamine synthetases and the DNA sequence upstream of the structural gene does not encode a leader peptide, the information to target the protein for export must be contained in its amino acid sequence and/or conformation.

The Mouse Extracellular Signal-regulated Kinase 2 Gene: GENE STRUCTURE AND CHARACTERIZATION OF THE PROMOTER

ERK2 (extracellular-signal regulated kinase 2, also known as p42 mitogen-activated protein kinase) is an integral member of the mitogen-activated protein kinase cascade that is crucial for many cellular events such as proliferation and differentiation. Here, we determined the genomic organization of the Erk2 gene and characterized its promoter. The Erk2 gene spans over 60 kilobases, and the coding region is split into eight exons. In the coding region, exon-intron organization was exactly conserved between the two mouse genes for ERK2 and ERK1 except one junction shifted by one nucleotide. Primer extension and S1 nuclease analyses identified two major transcription start sites located at -219 and -223 relative to the translation start site. The 5'-flanking sequence lacked TATA box but contained a CCAAT box located approximately 60 base pairs upstream of transcription start sites. Sequencing of the 5'-flanking region also revealed potential cis-acting elements for multiple transcriptional regulatory factors including Sp1, zif268, Ets, CREB, and PuF sites. The promoter activity of the 5'-flanking region was examined using chloramphenicol acetyltransferase as a reporter gene. Transient transfection experiments using Chinese hamster ovary cells defined a maximal promoter activity in a 371-base pair region immediately upstream of the translation start site. Furthermore, we demonstrated, using mouse P19 embryonal carcinoma cells, that this 371-base pair sequence is likely to be sufficient to confer the transcriptional activation of the ERK2 promoter during the retinoic acid-induced differentiation of P19 cells.

Organization and transcription of the myo-inositol operon, iol, of Bacillus subtilis.

Previous determination of the nucleotide sequence of the iol region of the Bacillus subtilis genome allowed us to predict the structure of the iol operon for myo-inositol catabolism, consisting of 10 iol genes (iolA to iouJ); iolG corresponds to idh, encoding myo-inositol 2-dehydrogenase (Idh). Primer extension analysis suggested that an inositol-inducible promoter for the iol operon (iol promoter) might be a promoter-like sequence in the 5' region of iolA, which is probably recognized by sigmaA. S1 nuclease analysis implied that a rho-independent terminator-like structure in the 3' region of iolJ might be a terminator for iol transcription. Disruption of the iol promoter prevented synthesis of the iol transcript as well as that of Idh, implying that the iol operon is most probably transcribed as an 11.5-kb mRNA containing the 10 iol genes. Immediately upstream of the iol operon, two genes (iolR and iolS) with divergent orientations to the iol operon were found. Disruption of iolR (but not iolS) caused constitutive synthesis of the iol transcript and Idh, indicating that the iolR gene encodes a transcription-negative regulator (presumably a repressor) for the iol operon. Northern and S1 nuclease analyses revealed that the iolRS genes were cotranscribed from another inositol-inducible promoter, which is probably recognized by sigmaA. The promoter assignments of the iol and iolRS operons were confirmed in vivo with a lacZ fusion integrated into the amyE locus.

The ssb-113 allele suppresses the dnaQ49 mutator and alters DNA supercoiling in Escherichia coli.

Mutations in the dnaQ gene, which encodes the proofreading epsilon-subunit of the DNA polymerase III holoenzyme, lead to a mutator phenotype caused by enhanced error rates during DNA replication. In this paper, we studied the influence of ssb mutations on the dnaQ49 mutator, because of the involvement of SSB protein in DNA replication. We found that the ssb-113 mutation suppresses the mutator phenotype of dnaQ49. The suppression effect resulted from an enhanced expression of the dnaQ49 allele as determined by experiments with gene fusions. S1 nuclease analysis revealed that the increased dnaQ expression is based on transcriptional activation of the dnaQP2 promoter. This seems to be the consequence of an increased DNA supercoiling in the ssb-113 mutant, which also influenced further functions that are sensitive to alterations in DNA supercoiling. These results support the hypothesis that the expression of the epsilon-subunit of DNA polymerase III may additionally be modulated by DNA supercoiling, and suggest a possible role for DNA topology in mutagenesis.

A divergently transcribed open reading frame is located upstream of the Pseudomonas aeruginosa vfr gene, a homolog of Escherichia coli crp.

The Pseudomonas aeruginosa homolog of the Escherichia coli global transcriptional regulator CRP (or CAP) was recently identified and designated Vfr (S. E. H. West, A. K. Sample, and L. J. Runyen-Janecky, J. Bacteriol. 176:7532-7542, 1994). Nucleotide sequence analysis of the region 5' to vfr identified a 423-bp open reading frame (ORF), which was designated orfX. The deduced amino acid sequence of ORFX was 53% identical and 87% similar to a divergent ORF of unknown function located 5' to the E. coli crp gene. When orfX was expressed from a phage T7 promoter in E. coli, a protein with an apparent molecular mass of approximately 18 kDa was produced. We constructed a chromosomal deletion of the region containing the 5' end of orfX (orfX'), vfr, and the 3' end of trpC (trpC') in P. aeruginosa strains PAO1 and PA103. The cloned vfr gene restored Vfr-dependent production of exotoxin A and protease in the PA103 orfX'-vfr-trpC' deletion mutant, suggesting that ORFX is not required for Vfr production or activity. To determine whether transcription of orfX and vfr are controlled by the same mechanisms that control transcription of the region of the divergent ORF (dorf) and of crp, we compared the vfr-orfX and crp-dorf intergenic regions. Using S1 nuclease analysis, we determined that the distance between the orfX and vfr transcriptional start sites was 105 bp. Thus, the P. aeruginosa orfX and vfr promoters are arranged in a back-to-back orientation rather than the face-to-face orientation of the dorf and crp promoters. A CRP recognition site is associated with each promoter in the crp-dorf intergenic region; binding of the CRP-cyclic AMP complex to the stronger dorf CRP recognition site activates transcription from the dorf promoter and represses transcription from the crp promoter. The vfr-orfX intergenic region does not contain an obvious CRP recognition site. In addition, vfr was not required for transcription of orfX. Unlike the dorf and crp mRNAs, the 5' ends of the orfX and vfr mRNAs were not complementary. Thus, the orfX mRNA cannot hybridize to the 5' end of the vfr mRNA to inhibit vfr transcription, a mechanism that has been postulated to control crp transcription in E. coli.

The effect of oligonucleotides to c-myb on vascular smooth muscle cell proliferation and neointima formation after porcine coronary angioplasty.

Proto-oncogenes, including c-myb, are expressed early after vascular injury. The application of antisense oligodeoxynucleotides (AS-ODNs) against these genes inhibits cell proliferation and neointima formation in small animals and in peripheral arteries. The aim of this study was to investigate the specificity of action of AS-ODN-c-myb in vitro and to assess its effect, when delivered locally, on neointima formation after percutaneous transluminal coronary angioplasty (PTCA) in porcine coronary arteries. AS-ODN-c-myb inhibited the proliferation of vascular smooth muscle cells (VSMCs) in vitro in a dose-dependent manner. There was a corresponding reduction in steady state levels of c-myb mRNA and protein. Expression of another early gene, c-fos, was unaffected. S1 nuclease analysis demonstrated intact full-length AS-ODN-c-myb retrieved from VSMCs in culture after 12 hours. A range of ODNs, related and unrelated to c-myb, with and without a GGGG sequence, inhibited VSMC proliferation. Phosphorothioated AS-ODN-c-myb was 30 times less potent than unphosphorothioated AS-ODN-c-myb. PTCA induced porcine coronary artery neointima formation. c-myb mRNA was maximally induced 18 hours after injury. Unmodified AS-ODN-c-myb, sense-ODN-c-myb, saline, or nothing was delivered immediately after balloon dilatation via a double-skinned porous balloon (Transport, SciMed). Fluorescence-labeled AS-ODN-c-myb was deposited throughout the vessel wall. Mean maximum intima/media cross-sectional area 4 weeks after PTCA was reduced with AS-ODN-c-myb by 79% compared with saline (P < .05), 82% compared with sense-ODN-c-myb, and 63% compared with nothing (P < .10). Conclusions are as follows: (1) c-myb is expressed in VSMCs after vascular injury. (2) AS-ODN-c-myb is retained intact in VSMCs, reducing their proliferation in vitro in dose-dependent fashion, with reduction in c-myb mRNA and protein, whereas sense-ODN-c-myb is not. (3) A range of ODNs can reduce VSMC proliferation by a non-sequence-specific mechanism. (4) Phosphorothioate protection of antisense molecules may reduce their efficacy. (5) Local delivery of unmodified AS-ODN-c-myb via the Transport catheter reduces neointima formation after porcine PTCA. (6) Local delivery of fluid may exacerbate neointimal thickening.

Treatment with DNA-damaging agents increases expression of polA'-'lacZ gene fusions in Escherichia coli K-12.

The polA gene of Escherichia coli encodes the DNA polymerase I that is involved in DNA replication and repair. In contrast to the extensive body of data on the structure and function of polymerase I, there is little information available concerning the mechanisms that govern polA expression. Here, we studied the expression of the polA gene using translational fusions to lacZ. We found that treatment with the DNA-damaging agents 4-nitroquinoline-N-oxide (4-NQO), UV light mitomycin C (MC) and methyl methanesulfonate (MMS) leads to enhanced expression of polA'-'lacZ fusions. The increase in expression of polA reflects stimulation of transcription from a single promoter, as determined by S1 nuclease analyses. This was not observed in mutants that are blocked in induction of the SOS regulon. However, mutants with defective excision repair were more susceptible to polA stimulation. These results support the hypothesis that increased polA expression may be important for the ability to repair bulky DNA adducts that interfere with replication.